Two distinct factor-binding DNA elements in cardiac myosin light chain 2 gene are essential for repression of its expression in skeletal muscle - Isolation of a cDNA clone for repressor protein Nished

被引：12

作者：

Dhar, M ^{[1
]}

Mascareno, EM ^{[1
]}

Siddiqui, MAQ ^{[1
]}

机构：

[1] SUNY HLTH SCI CTR, DEPT ANAT & CELL BIOL, CTR CARDIOVASC & MUSCLE RES, BROOKLYN, NY 11203 USA

来源：

JOURNAL OF BIOLOGICAL CHEMISTRY | 1997年 / 272卷 / 29期

关键词：

D O I：

10.1074/jbc.272.29.18490

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

The expression of the cardiac myosin light chain 2 (MLCS) gene is repressed in skeletal muscle as a result of the negative regulation of its transcription. Two regulatory elements, the cardiac specific sequence (CSS) located upstream (-360 base pairs) and a downstream negative modulatory sequence (NMS), which function in concert with each other, are required for repression of the MLC2 promoter activity in skeletal muscle. Individually, CSS and NMS have no effect. Transient transfection analysis with recombinant plasmids indicated that CSS- and NMS-mediated repression of transcription is position- and orientation-dependent and is transferable to heterologous promoters. A minimal conserved motif, GAAG/CTTC, present in both CSS and NMS, is responsible for repression as the mutation in the core CTTC sequence alone was sufficient to abrogate its repressor activity. The DNA binding assay by gel mobility shift analysis revealed that one of the two complexes, CSSBP2, is significantly enriched in embryonic skeletal muscle relative to cardiac muscle. In extracts from adult skeletal muscle, where the cardiac MLC2 expression is suppressed, both complexes, CSSBP1 and CSSBP2, were present, whereas the cardiac muscle extracts contained CSSBP1 alone, suggesting that the protein(s) in the CSSBP2 complex accounts for the negative regulation of cardiac MLC2 in skeletal muscle. A partial cDNA clone (Nished) specific for the candidate repressor factor was isolated by expression screening of the skeletal muscle cDNA library by multimerized CSS-DNA as probe. The recombinant Nished protein binds to the CSS-DNA, but not to Delta CSS-DNA where the core CTTC sequence was mutated. The amino acid sequence of Nished showed a significant structural similarity to the sequence of transcription factor ''runt,'' a known repressor of gap and pair-rule gene expression in Drosophila.

引用

页码：18490 / 18497

页数：8

共 63 条

[51] MOLECULAR-CLONING OF AN ENHANCER BINDING-PROTEIN - ISOLATION BY SCREENING OF AN EXPRESSION LIBRARY WITH A RECOGNITION SITE DNA [J].

SINGH, H ;

LEBOWITZ, JH ;

BALDWIN, AS ;

SHARP, PA .

CELL, 1988, 52 (03) :415-423

[52] ADRENERGIC SIGNALS DIRECT RHYTHMIC EXPRESSION OF TRANSCRIPTIONAL REPRESSOR CREM IN THE PINEAL-GLAND [J].

STEHLE, JH ;

FOULKES, NS ;

MOLINA, CA ;

SIMONNEAUX, V ;

PEVET, P ;

SASSONECORSI, P .

NATURE, 1993, 365 (6444) :314-320

[53] IDENTIFICATION OF UPSTREAM AND INTRAGENIC REGULATORY ELEMENTS THAT CONFER CELL-TYPE-RESTRICTED AND DIFFERENTIATION-SPECIFIC EXPRESSION ON THE MUSCLE CREATINE-KINASE GENE [J].

STERNBERG, EA ;

SPIZZ, G ;

PERRY, WM ;

VIZARD, D ;

WEIL, T ;

OLSON, EN .

MOLECULAR AND CELLULAR BIOLOGY, 1988, 8 (07) :2896-2909

[54] REGULATION OF JCVL PROMOTER FUNCTION - EVIDENCE THAT A PENTANUCLEOTIDE SILENCER REPEAT SEQUENCE AGGGAAGGGA DOWN-REGULATES TRANSCRIPTION OF THE JC VIRUS LATE PROMOTER [J].

TADA, H ;

LASHGARI, MS ;

KHALILI, K .

VIROLOGY, 1991, 180 (01) :327-338

[55] COOPERATIVE BINDING AT A DISTANCE BY EVEN-SKIPPED PROTEIN CORRELATES WITH REPRESSION AND SUGGESTS A MECHANISM OF SILENCING [J].

TENHARMSEL, A ;

AUSTIN, RJ ;

SAVENELLI, N ;

BIGGIN, MD .

MOLECULAR AND CELLULAR BIOLOGY, 1993, 13 (05) :2742-2752

[56] TRANSCRIPTIONAL ACTIVATION - A COMPLEX PUZZLE WITH FEW EASY PIECES [J].

TJIAN, R ;

MANIATIS, T .

CELL, 1994, 77 (01) :5-8

[57] REPRESSION OF C-FOS PROMOTER BY MYOD ON MUSCLE-CELL DIFFERENTIATION [J].

TROUCHE, D ;

GRIGORIEV, M ;

LENORMAND, JL ;

ROBIN, P ;

LEIBOVITCH, SA ;

SASSONECORSI, P ;

HARELBELLAN, A .

NATURE, 1993, 363 (6424) :79-82

[58] MYOGENIN BINDS TO AND REPRESSES C-FOS PROMOTER [J].

TROUCHE, D ;

MASUTANI, H ;

GROISMAN, R ;

ROBIN, P ;

LENORMAND, JL ;

HARELBELLAN, A .

FEBS LETTERS, 1995, 361 (2-3) :140-144

[59] REGULATION OF THE CHICKEN EMBRYONIC MYOSIN LIGHT-CHAIN (L23) GENE - EXISTENCE OF A COMMON REGULATORY ELEMENT SHARED BY MYOSIN ALKALI LIGHT-CHAIN GENES [J].

UETSUKI, T ;

NABESHIMA, Y ;

FUJISAWASEHARA, A ;

NABESHIMA, YI .

MOLECULAR AND CELLULAR BIOLOGY, 1990, 10 (06) :2562-2569

[60]

WERNER H, 1994, J BIOL CHEM, V269, P12577

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